dc.description.abstract |
In this dissertation, a class of Hartley Ross type unbiased estimators is proposed for estimation of
finite population mean under adaptive cluster sampling and stratified adaptive cluster sampling.
Hartley Ross type unbiased estimator is also proposed utilizing two auxiliary variables. These
estimators employ information on known parameters of the auxiliary variable. The variances of
proposed class of unbiased estimators are obtained up to first degree of approximation. Computations
related to proposed estimators are illustrated via numerical example. Proposed estimators
are more efficient than the usual mean estimator, ratio and modified ratio estimators in adaptive
cluster sampling and stratified adaptive cluster sampling under certain realistic conditions.
Exponential-ratio-type and difference-type estimators are propounded for general parameter
in adaptive cluster sampling and stratified adaptive cluster sampling. The proposed estimators
coherently utilize information on two auxiliary variables in three different situations i-e. none,
partial and full information about population parameters of auxiliary variables. The proposed
estimators for general parameter can be used to estimate the population mean, population coefficient
of variation, population standard deviation and population variance of the variable of
interest. Proposed estimators are also presented to be used with multi auxiliary variables.
Difference-type estimators are recommended for estimation of population coefficient of variation
under adaptive cluster sampling. Proposed estimators utilize mean, ranks and coefficient
of variation of auxiliary variables.
Difference-type and difference-cum-exponential-ratio-type estimators are presented utilizing
two auxiliary variables for estimation of general parameter under adaptive cluster sampling and
stratified adaptive cluster sampling. These estimators utilize auxiliary information in terms of
ranks, variances and means of auxiliary variables. Such estimators are generalized for multi
auxiliary variables.
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Generalized ratio-type and ratio-exponential-type estimators are proposed for population
mean under adaptive cluster sampling based on modified Horvitz-Thompson estimator. The
proposed estimators utilize auxiliary information in combination of conventional measures (coefficient
of skewness, coefficient of variation, correlation coefficient, covariance, coefficient of
kurtosis) and robust measures (tri-mean, Hodges-Lehmann, mid-range) to increase efficiency.
Finally, three new sampling schemes are proposed to select initial sample in adaptive cluster
sampling. These schemes are proposed adopting, ranked set sampling to increase precision of
estimates. Usual Hansen-Hurwitz and Horvitz-Thompson estimators for population mean under
adaptive cluster sampling are modified for employment under the proposed schemes. Procedures
related to the proposed schemes are also illustrated with the help of examples.
Expressions for bias and mean square error of proposed estimators are derived using first
order of approximation. Empirical and simulation studies are conducted to evaluate the proposed
estimators. Behaviors of existing and proposed estimators are analyzed for several initial sample
sizes and at different levels of correlation between study and auxiliary variables. Comparisons
of existing and proposed estimators are also illustrated.
The results reveal that whenever the efficiency conditions are fulfilled, proposed estimators
performed more efficiently than competing estimators for estimation of population mean, population
variance and population coefficient of variation. The proposed estimators are found to
be more efficient under both adaptive cluster sampling and stratified adaptive cluster sampling.
The sampling schemes which are recommended by adopting ranked set sampling are found to
be more efficient than adaptive cluster sampling when initial sample is drawn by simple random
sampling without replacement. |
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